Funded projects
QUANTINT: Quantum Information and Network Theory: Algorithms and Performance Limits
Project type: joint France-USA project funded by ANR and NSF
Period: 2026-2029
Lead by Philippe Jacquet (Inria Saclay), involving Sandeep Pradhan (University of Michigan), Abram Magner (SUNY Albany), Arun Padajandla (Eurocom Nice) and myself
QNET: Quantum network correlations: from foundations to applications
Project type: ANR ERC StG Tremplin
Period: 2025-2027
I am the PI
COMPUTE: nonCommutative polynOMial oPtimisation for qUanTum nEtworks
Project type: QuantERA consortium
Period: 2024-2027
Website: https://project.inria.fr/compute/
I am the coordinator of this large consortium involving Mariami Gachechiladze, David Gross (TU Darmstadt & University of Cologne, Germany), Victor Magron (LAAS-CNRS Toulouse, France), Igor Klep, Aljaž Zalar (University of Ljubljana, Slovenia) and Antonio Acin (Barcelona, Spain
LINKS : correLations In quaNtum networKs: from foundations to experimental protocolS
Project type: JCJC funded by the ANR
Period: 2024 – 2028
I am the PI, the project is in collaboration with Antonio Acín (ICFO Barcelona, Spain) and Omar Fawzi (ENS Lyon, France)
DEPARTURE : DistributEd comPuting And netwoRk nonlocaliTy in the qUantum inteRnEt
Project type: Action Exploratoire funded by INRIA and CIEDS
Period: 2024 – 2027
I am the PI, the project is in collaboration with Jukka Suomela (Aalto University, Finland)
Software
QDimSum : Symmetric SDP relaxations for qudits systems.
See the dedicated webpage.
This matlab package was written by Denis Rosset, Armin Tavakoli and I.
It implements the algorithms described in Enabling computation of correlation bounds for finite-dimensional quantum systems via symmetrisation, arXiv:1808.02412.
It evolved into RepLAB, a more ambitious project developed by Denis Rosset and Jean-Daniel Bancal.